Estudo da condição de superfície em rodovias por meio do uso de aplicativo para smartphone
DOI:
https://doi.org/10.14295/transportes.v26i2.1406Keywords:
Smartphone, Texture, Wearing Course, Distress.Abstract
This paper analyzes surface conditions of an Asphaltic Concrete paved road, Surface Treatment and Cement-Concrete, and also an unpaved road, using a smartphone application called Roadroid. The considered characteristics of surface conditions are associated with texture and surface distress. The analysis is performed utilizing a comparative BoxPlot chart and a central trend measures. In relation to the textures, it is verified that open macrotextures in wearing courses presents higher values of irregularity, even in the absence of distress. It is also observed that the surface conditions analyzed by the smartphone app are similar to the surface conditions provided by road agencies and those segments with high variation coefficient values, present a significant amount of distress, especially patches and potholes. With this analysis, it is expected to contribute with the most reliable data, obtained through the use of smartphones, in order to aid managing groups on decision-making.Downloads
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Alessandroni, G.; L. C. Klopfenstein; S. Delpriori; M. Dromedari; G. Luchetti; B. D. Paolini; A. Seraghiti; E. Lattanzi; V. Freschi; A. Carini e A. Boglioli (2014) Smartroadsense: Collaborative road surface condition monitoring. International Conference on Mobile Ubiquitous Computing, Systems, Services and Technologies, Ubicomm, p. 210-215. Disponível em: http://www.researchgate.net/profile/Emanuele_Lattanzi/publication/271700011_SmartRoadSense_Collaborative_Road_Surface_Condition_Monitoring/links/54cf57c70cf24601c0933aaf.pdf . Acesso em 15/03/2017.
Aps, M. (2006) Classificação da Aderência pneu-pavimento pelo índice IFI – International Friction Index para revestimentos asfálticos. Tese (Doutorado em Engenharia de Transportes). Escola Politécnica da Universidade de São Paulo, São Paulo.
Bernucci, L. B.; L. M. G. Motta; J. A. P. Ceratti e J. B. Soares (2008) Pavimentação Asfáltica. Formação Básica para Engenheiros. Petrobras. Abeda. Rio de Janeiro.
Bisconsini, D. R (2016) Avaliação da irregularidade longitudinal dos pavimentos com dados coletados por smartphones. Disserta-ção (Mestrado em Infra-Estrutura de Transportes). Escola de Engenharia de São Carlos, Universidade de São Paulo. São Paulo.
Buttlar, W. G. e S. Islam (2014) Measurement of pavement roughness using an Android-based smartphone application. Transportation Research Board 93rd Annual Meeting, Washington D.C. DOI: 10.3141/2457-04.
Casa Civil (2012) Governo do Estado do Ceará. Disponível em: http://www.casacivil.ce.gov.br/index.php/noticias/5746-governo-do-estado-inaugura-o-trecho-quixeramobim-madalena (Acesso em: 01/03/2017)
CNT (2016) Relatório Gerencial: Pesquisa CNT de Rodovias 2016. 20ª ed. Confederação Nacional do Transporte. Brasília: CNT, SEST, SENAT.
DER-CE (2017) Sistema de Rotas e Trafegabilidade (SIRTRA). Departamento Estadual de Rodovias. Disponível em: http://mapas.der.ce.gov.br/ (Acesso em 02/03/2017)
DNER - Departamento Nacional de Estradas de Rodagem (1986) DNER – ES 173/86 - Método de nível e mira para calibração de sistemas medidores de irregularidade tipo resposta. Especificação de Serviço. Ministério dos Transportes, Rio de Janeiro.
DNIT - Departamento Nacional de Infraestrutura de Transportes (2013) Instrução de Serviço/DG Nº13. Ministério dos Transportes. Brasília, DF.
DNIT - Departamento Nacional de Infraestrutura de Transportes (2016) Condições das Rodovias. Ministério dos Transportes. Brasília, DF. Disponível em: http://servicos.dnit.gov.br/condicoes/ce.htm (Acesso em 12/03/2017)
Douangphachanh, V. e H. Oneyma (2014) Estimation of road roughness condition from smartphones under realistic settings. In: Proceedings of the 13th International Conference on ITS Telecommunications (ITST). 5-7. p. 433-439. DOI:10.1109/ITST.2013.6685585. Disponível em: http://www.jwcn.eurasipjournals.com/content/pdf/1687-1499-2014-114.pdf (Acesso em: 10/03/2017)
Eriksson, J.; L. Girod; B. Hull; R. Newton; S. Madden e H. Balakrishnan (2008) The pothole patrol: using a mobile sensor net-work for road surface monitoring. Proceedings of the 6th International Conference on Mobile Systems, Applications, and Ser-vices. New York - NY, pp. 29-39.
Forslof, L. (2014). Roughness and Texture. Página profissional do Linkedin©, publicado em 30 de novembro de 2014. Dispo-nível em: https://www.linkedin.com/pulse/20141130211746-97325448-roughness-and-texture/?trackingId=JYtbRki7vh46bmTSMRWW1g%3D%3D (Acesso em 10/03/2017)
Forslof, L. (2015). Roadroid: Continuous road condition monitoring with smart phones. Journal of Civil Engineering and Archi-tecture, v. 9, p. 485-496. DOI: 10.17265/1934-7359/2015.04.012
González, A.; E. J. O'brien; Y. Y. LI e K. Cashell (2008) The use of vehicle acceleration measurements to estimate road rough-ness, Vehicle System Dynamics. International Journal of Vehicle Mechanics and Mobility, v. 46, n. 6, p. 483-499. DOI: 10.1080/00423110701485050
Hanson, T. R. e C. Cameron (2012) Can a smartphone collect IRI data? Conference and Exhibition of the Transportation Associa-tion of Canada – Transportation: Innovations and Opportunities Fredection, NB, Canada. Disponível em: http://conf.tacatc.ca/english/annualconference/tac2012/docs/session29/hanson.pdf (Acesso em 11/03/2017)
Hirpahuanca, D. L. (2016). Determinación y Comparación de la Regularidad Superficial del Pavimento de la Carretera Cusco-Urcos, Usando Teléfonos Inteligentes y el Rugosímetro de MERLIN. Monografia (Graduação em Ingeniería Civil). Universidad Andina del Cusco - UANDINA.
Mohan, P.; V. N. Padmanabhan e R. N. Ramjee (2008) Rich monitoring of road and traffic conditions using mobile smartphones. In: 6th ACM conference on Embedded Network Sensor Systems, SenSys, ACM, New York, NY. p. 323–336
Oliveira, F. H. L.; L. C. Almeida e S. P. Ramos (2016). Estudo do comportamento da aderência e do conforto ao rolamento em pistas de pouso e decolagem. Transportes, v. 24, n.2. ISSN: 2237-1346(online). DOI:10.4237/transportes.v24.i2/1059.
Silva, P. F. A. (2005) Manual de patologia e manutenção de pavimentos. Ed. Pini. São Paulo.
Wang, W. e F. Guo (2016) RoadLab – Revamping Road Condition and Road Safety Monitoring by Crowdsourcing with Smartphone App. Transportation Research Board 95rd Annual Meeting, Washington D.C.
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